November 19, 2025 News
Nvidia Reports Record $57B Revenue Driven by Surging AI Data Center Demand
Nvidia reported record Q3 revenue of $57 billion, up 62% year-over-year, driven primarily by its data center business which generated $51.2 billion. The company's CEO Jensen Huang emphasized that demand for its Blackwell GPU chips is extremely strong, with sales described as "off the charts" and cloud GPUs sold out. Nvidia forecasts continued growth with projected Q4 revenue of $65 billion, signaling sustained momentum in AI infrastructure investment.
Skynet Chance (+0.04%): Massive acceleration in GPU deployment (5 million GPUs sold) significantly increases the compute infrastructure available for training increasingly powerful AI systems, potentially including unaligned or poorly controlled models. The scale and speed of this buildout reduces the time available for developing robust safety measures relative to capability growth.
Skynet Date (-1 days): The record-breaking GPU sales and sold-out inventory indicate exponential acceleration in AI compute availability, which directly speeds up the development of increasingly capable AI systems. This rapid scaling of infrastructure compresses the timeline for when advanced AI systems with potential control problems could emerge.
AGI Progress (+0.04%): The exponential growth in compute infrastructure (66% YoY increase in data center revenue, 5 million GPUs deployed) provides the foundational resources needed for scaling AI models toward AGI-level capabilities. The widespread adoption across cloud service providers, enterprises, and research institutions suggests broad-based progress in deploying the compute necessary for AGI development.
AGI Date (-1 days): The sold-out GPU inventory, record sales, and aggressive growth projections indicate unprecedented acceleration in compute availability for AI training and inference. This removal of compute bottlenecks, combined with the specific mention of "compute demand keeps accelerating and compounding," directly accelerates the timeline toward potential AGI achievement by enabling faster iteration and larger-scale experiments.